grant

Investigating the Impacts of Vestibular and Auditory Function on Spatiotemporal Gait Characteristics and Spatial Navigation

Organization OHIO STATE UNIVERSITYLocation Columbus, UNITED STATESPosted 1 May 2025Deadline 30 Apr 2027
NIHUS FederalResearch GrantFY202618 year old18 years of age2-dimensional65 and older65 or older65 years of age and older65 years of age or more65 years of age or older65+ years65+ years oldAccidentsAddressAffectAge related comorbiditiesAged 65 and OverAgingAnatomic SitesAnatomic structuresAnatomyAssayAudiogramAudiometric TestAudiometryAuditoryAuditory ThresholdAuditory systemAwarenessBioassayBiological AssayCessation of lifeCharacteristicsClinicalCognitionCoupledCuesDeathDecline in mobilityDecrease in mobilityDecreased mobilityDependenceDevelopmentDiminished mobilityEnsureEnvironmentEquilibriumFall preventionGaitGait AnalysisGoalsHealth Care CostsHealth CostsHearingHearing TestsImpairmentIncidenceIndividualInternal EarInterventionInvestigatorsLabyrinthLengthLifeLiquid substanceLiteratureMeasurementMeasuresMethodsMobility declineMobility impairmentMotionMovementNoiseOrganPaperParticipantPathologicPatternPerceptionPerformancePopulationPresbyacusisPresbycusisPublic HealthPure-Tone AudiometryQOLQOL improvementQuality of lifeReduced mobilityReduction in mobilityReportingResearchResearch PersonnelResearchersRotationSensorySensory impairmentSystemTestingTranslationsUnited StatesVestibularVestibular System FunctionVestibular System ImpairmentVestibular defectVestibular dysfunctionVestibular functionVestibular lossVestibular problemsWalkingabove age 65after age 65age 18age 18 yearsage 65 and greaterage 65 and olderage 65 or olderageage associatedage associated alterationsage associated changesage associated comorbiditiesage associated declineage associated diseaseage associated disorderage associated effectsage associated hearing lossage associated impairmentage correlatedage correlated alterationsage correlated changesage dependentage dependent alterationsage dependent changesage dependent declineage dependent diseaseage dependent disorderage dependent impairmentage effectage induced alterationsage induced changesage induced hearing lossage linkedage of 65 years onwardage relatedage related alterationsage related changesage related declineage related decline in hearingage related effectsage related hearing deficitsage related hearing impairmentage related hearing lossage related human diseaseage specificage specific alterationsage specific changesage-related diseaseage-related disorderage-related impairmentaged 65 and greateraged 65+aged ≥65aging associated alterationsaging associated changesaging associated hearing lossaging correlated alterationsaging correlated changesaging dependent alterationsaging dependent changesaging effectaging induced alterationsaging induced changesaging induced hearing lossaging related alterationsaging related changesaging related decline in hearingaging related hearing deficitsaging related hearing impairmentaging related hearing lossaging specific alterationsaging specific changesalterations with ageauditory processingauditory testsbalancebalance functionbody movementchanges with agecomputerizeddecline with agedevelopmentaleighteen year oldeighteen years of agefall injuryfall related injuryfall riskfallsfluidgait examinationhearing assessmenthearing in noisehearing thresholdhuman old age (65+)impact of ageimprovements in QOLimprovements in quality of lifeinfluence of ageinjurious fallsinner earinnovateinnovationinnovativeinstrumentliquidmortalitymultisensorynew approachesnovel approachesnovel strategiesnovel strategyolder adultolder adulthoodover 65 yearspreventing fallsquality of life improvementsensory systemspatial and temporalspatial navigationspatial temporalspatiotemporalspeech in background noisespeech in noisespeech in speech recognitionspeech recognition in noisetranslationtwo-dimensionalvestibular deficitvestibular impairmentvestibular systemvestibular system dysfunctionway findingwayfinding≥65 years
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Full Description

Project Summary/Abstract
Falls among older adults represent a significant public health issue in the United States. Falls and fall-related
injuries impact approximately 28-49% of the older adult population each year and falls are the primary cause of
accidental death in older adults over the age of 65. Fall related injury and mortality have considerable impact on
healthcare costs. This research seeks to elucidate the interplay between age-related auditory and vestibular
deficits and their effects on gait and spatial navigation. Age-related hearing loss (ARHL) and age-related
vestibular dysfunction are both associated with increased fall risk, yet their influence on gait and spatial
navigation remains underrepresented in the literature. This project aims to address this gap by investigating how
changes in auditory and vestibular function correlate with spatiotemporal gait characteristics and spatial
navigation abilities. We propose a novel approach by employing comprehensive assays of auditory and
vestibular function, including objective and subjective measures of hearing ability as well as vestibular perceptual
thresholds, to evaluate the impact of age-related changes in these systems on gait and spatial navigation.
Participants aged 18-89 will undergo a battery of assessments: auditory tests (including pure-tone audiometry
and speech recognition in noise), vestibular perceptual threshold testing, instrumented gait analysis, and the
triangle completion test to assess spatial navigation. By correlating auditory and vestibular thresholds with gait
variability and spatial navigation performance, this study aims to identify key predictors related to fall risk and
impaired mobility. This research is expected to contribute to a deeper understanding of how ARHL and age-
related changes in vestibular function affect gait and spatial navigation, potentially guiding the development of
targeted interventions to mitigate fall risk and improve quality of life for older adults. The innovative integration
of continuous measures of auditory and vestibular function with dynamic gait and spatial navigation assessments
represents a significant advancement in the field toward the reduction of fall risk in older adults.

Grant Number: 5F32DC022769-02
NIH Institute/Center: NIH
Principal Investigator: Shauntelle Cannon

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